Two inflinitely long wires carrying current I, are bent as shown in the figure. Find the magnetic induction at point C.

one of the two infinitely long wires carrying current I is bent as shown in the adjacent figure. The magnetic induction at C is equal to

A very long wire carrying a current I = 5.0 A A is bent at right angles. Find the magnetic induction at a point lying on a perpendicular to the wire, drawn through the point of hending at a distance l = 35 cm from it.

Two perpendicular infinite wires are carrying current i as shown in the figure. The magnetic field at point P is :

A conducting wire carrying current I is shown in the figure. The magnitude of magnetic field at the point P will be

A very long wire carrying a current I = 5.0 A is bent at right angles. Find the magnetic induction at a point lying on a perpendicular normal to the plane of the wire drawn through the Point of bending at a distance l = 35 cm from it.

A very long wire carrying a currrent i=5*0A is bent at right angles. Find the magnetic field induction at a point lying on a perpendicular to the wires drawn through the point of bending, at a distance l=35cm from it.

A current I flows in a long straight wire (into the plane of the paper) with cross-section having the from of a circular are of radius R a shown in the figure. Find the magnetic induction at the point O .

figure 4.22 shows two long wires A and B, each carrying a current I, separated by a distance l and oriented in a plane perpendicular to the plane of paper. The directions of currents are shown in figure. Find the magnetic induction at a point P located at a distance l from both wires as shown in figure4.22

A long wire carrying current 'I' is bent into the shape as shown in the figure. The net magnetic field intensity at the centre 'O' is

The location of three long wires carrying same current I are x=-a , x=0 and x=+ a respectively as shown in figure. The magnetic field at point ( 0 , 0 , a ) is